1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 MET 31 - ALA 32 MODEL 4 OMEGA =145.82 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION MET 28 - SER 29 MODEL 5 OMEGA =138.81 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION MET 31 - ALA 32 MODEL 7 OMEGA =142.17 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION ARG 12 - VAL 13 MODEL 8 OMEGA =215.92 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION ARG 23 - PRO 24 MODEL 8 OMEGA =146.16 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION ARG 23 - PRO 24 MODEL 10 OMEGA =147.21 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION MET 31 - ALA 32 MODEL 13 OMEGA =142.69 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION MET 31 - ALA 32 MODEL 14 OMEGA =137.65 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION ALA 15 - LYS 16 MODEL 15 OMEGA =144.36 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION LYS 16 - PRO 17 MODEL 15 OMEGA =148.98 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION PRO 17 - ALA 18 MODEL 15 OMEGA =139.25 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION ALA 18 - VAL 19 MODEL 15 OMEGA =214.00 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION MET 31 - ALA 32 MODEL 15 OMEGA =142.29 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION MET 31 - ALA 32 MODEL 20 OMEGA =141.96 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION LYS 16 - PRO 17 MODEL 21 OMEGA =144.71 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION MET 31 - ALA 32 MODEL 22 OMEGA =139.05 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION MET 3 - ALA 4 MODEL 23 OMEGA =225.83 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION MET 28 - SER 29 MODEL 24 OMEGA =144.45 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION MET 31 - ALA 32 MODEL 24 OMEGA =142.45 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION MET 31 - ALA 32 MODEL 27 OMEGA =142.57 PEPTIDE BOND DEVIATES SIGNIFICANTLY FROM TRANS CONFORMATION Lancelin, J.-M. Blackledge, M. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 1 90.00 90.00 90.00 1.000 1.000 1.000 C3 H7 N O2 89.093 y ALANINE L-peptide linking C6 H15 N4 O2 1 175.209 y ARGININE L-peptide linking C3 H7 N O2 S 121.158 y CYSTEINE L-peptide linking C2 H5 N O2 75.067 y GLYCINE peptide linking C6 H15 N2 O2 1 147.195 y LYSINE L-peptide linking C5 H11 N O2 S 149.211 y METHIONINE L-peptide linking C9 H11 N O2 165.189 y PHENYLALANINE L-peptide linking C5 H9 N O2 115.130 y PROLINE L-peptide linking C3 H7 N O3 105.093 y SERINE L-peptide linking C4 H9 N O3 119.119 y THREONINE L-peptide linking C5 H11 N O2 117.146 y VALINE L-peptide linking NE FEBS Lett. FEBLAL 0165 0014-5793 343 261 266 10.1016/0014-5793(94)80568-7 8174712 NMR structures of ferredoxin chloroplastic transit peptide from Chlamydomonas reinhardtii promoted by trifluoroethanol in aqueous solution. 1994 US Plant Physiol. PLPHAY 0765 0032-0889 102 1349 A Cdna Clone Encoding Chlamydomonas Reinhardtii Preferredoxin 1993 10.2210/pdb1fct/pdb pdb_00001fct 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 3348.091 FERREDOXIN CHLOROPLASTIC TRANSIT PEPTIDE SEQUENCE FROM THE GREEN ALGA 1 man polymer no no MAMAMRSTFAARVGAKPAVRGARPASRMSCMA MAMAMRSTFAARVGAKPAVRGARPASRMSCMA A polypeptide(L) n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n Chlamydomonas sample CDNA 3055 Chlamydomonas reinhardtii database_2 pdbx_database_status pdbx_nmr_software pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations Other 1 0 1994-06-22 1 1 2008-03-24 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_database_status.process_site _pdbx_nmr_software.name Y BNL 1994-03-30 REL 27 BIOSYM, INC. refinement Discover 2.9 MET 1 n 1 MET 1 A ALA 2 n 2 ALA 2 A MET 3 n 3 MET 3 A ALA 4 n 4 ALA 4 A MET 5 n 5 MET 5 A ARG 6 n 6 ARG 6 A SER 7 n 7 SER 7 A THR 8 n 8 THR 8 A PHE 9 n 9 PHE 9 A ALA 10 n 10 ALA 10 A ALA 11 n 11 ALA 11 A ARG 12 n 12 ARG 12 A VAL 13 n 13 VAL 13 A GLY 14 n 14 GLY 14 A ALA 15 n 15 ALA 15 A LYS 16 n 16 LYS 16 A PRO 17 n 17 PRO 17 A ALA 18 n 18 ALA 18 A VAL 19 n 19 VAL 19 A ARG 20 n 20 ARG 20 A GLY 21 n 21 GLY 21 A ALA 22 n 22 ALA 22 A ARG 23 n 23 ARG 23 A PRO 24 n 24 PRO 24 A ALA 25 n 25 ALA 25 A SER 26 n 26 SER 26 A ARG 27 n 27 ARG 27 A MET 28 n 28 MET 28 A SER 29 n 29 SER 29 A CYS 30 n 30 CYS 30 A MET 31 n 31 MET 31 A ALA 32 n 32 ALA 32 A author_defined_assembly 1 monomeric 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 1_555 x,y,z identity operation 0.0000000000 0.0000000000 0.0000000000 4 A A MET ALA 31 32 145.82 5 A A MET SER 28 29 138.81 7 A A MET ALA 31 32 142.16 8 A A ARG VAL 12 13 -144.08 8 A A ARG PRO 23 24 146.15 10 A A ARG PRO 23 24 147.21 13 A A MET ALA 31 32 142.69 14 A A MET ALA 31 32 137.65 15 A A ALA LYS 15 16 144.36 15 A A LYS PRO 16 17 148.98 15 A A PRO ALA 17 18 139.25 15 A A ALA VAL 18 19 -146.00 15 A A MET ALA 31 32 142.29 20 A A MET ALA 31 32 141.96 21 A A LYS PRO 16 17 144.71 22 A A MET ALA 31 32 139.05 23 A A MET ALA 3 4 -134.17 24 A A MET SER 28 29 144.45 24 A A MET ALA 31 32 142.44 27 A A MET ALA 31 32 142.57 1 A ARG 12 0.080 SIDE CHAIN 4 A ARG 23 0.119 SIDE CHAIN 6 A ARG 23 0.077 SIDE CHAIN 7 A ARG 20 0.081 SIDE CHAIN 7 A ARG 27 0.117 SIDE CHAIN 9 A ARG 23 0.078 SIDE CHAIN 11 A ARG 20 0.097 SIDE CHAIN 15 A ARG 20 0.097 SIDE CHAIN 16 A ARG 20 0.083 SIDE CHAIN 17 A ARG 12 0.074 SIDE CHAIN 20 A ARG 27 0.096 SIDE CHAIN 24 A ARG 23 0.085 SIDE CHAIN 16 -3.08 0.50 120.30 117.22 A A A NE CZ NH2 ARG ARG ARG 12 12 12 N 18 9.51 1.50 119.30 128.81 A A A C N CA ARG PRO PRO 23 24 24 Y 1 A ALA 15 75.55 -58.81 1 A LYS 16 -21.18 -59.85 1 A VAL 19 -143.65 -44.04 1 A ARG 23 -74.79 -75.77 1 A PRO 24 -79.98 -147.80 1 A ARG 27 -139.33 -126.40 1 A MET 28 -151.04 -99.80 2 A ARG 23 -54.64 -72.52 2 A ARG 27 -92.75 -122.75 2 A MET 28 -70.76 -75.32 2 A SER 29 -92.74 -112.29 2 A MET 31 67.67 -46.72 3 A LYS 16 -22.21 -65.03 3 A VAL 19 -135.83 -41.93 3 A ARG 20 53.12 -119.44 3 A ARG 23 -90.67 -83.63 3 A ALA 25 75.99 173.31 3 A ARG 27 -86.79 -125.62 3 A MET 28 -150.64 -73.89 3 A SER 29 63.35 -162.91 3 A CYS 30 -159.93 -49.91 4 A LYS 16 -155.12 -77.03 4 A ARG 23 -70.34 -71.45 4 A PRO 24 -76.59 -134.35 4 A ALA 25 69.44 -62.96 4 A SER 26 -145.56 21.39 4 A ARG 27 -137.48 -140.83 4 A MET 28 -163.68 -50.02 4 A CYS 30 -136.38 -59.02 4 A MET 31 -145.48 -58.16 5 A LYS 16 -149.09 -61.44 5 A ALA 18 -78.46 40.78 5 A VAL 19 -148.03 -54.37 5 A ARG 20 70.62 -53.55 5 A ARG 23 -87.94 -82.74 5 A MET 28 -112.27 -97.15 5 A SER 29 -81.08 -147.57 5 A MET 31 -146.62 -55.89 6 A ARG 12 -74.39 -71.48 6 A VAL 13 32.49 -108.37 6 A ALA 15 18.95 64.41 6 A LYS 16 -133.24 -78.31 6 A PRO 17 -28.68 -66.49 6 A VAL 19 -127.03 -54.94 6 A ARG 20 -28.74 -66.88 6 A ARG 23 -133.22 -83.28 6 A SER 26 -174.99 85.75 6 A ARG 27 -107.12 -124.76 6 A SER 29 -121.82 -167.83 7 A LYS 16 -96.82 -88.19 7 A VAL 19 -129.73 -115.16 7 A ARG 23 -114.87 -82.71 7 A PRO 24 -75.30 -152.72 7 A SER 26 -75.61 43.00 7 A MET 28 63.52 -68.40 7 A SER 29 71.97 161.94 7 A CYS 30 -134.14 -43.79 7 A MET 31 -147.14 -59.09 8 A ARG 12 -60.42 -70.56 8 A VAL 13 31.13 -121.77 8 A ALA 15 34.84 73.88 8 A LYS 16 -120.74 -71.09 8 A ALA 18 -71.49 26.38 8 A VAL 19 -137.01 -58.74 8 A ALA 22 -158.88 44.21 8 A ARG 23 -155.03 -73.12 8 A PRO 24 -77.39 -154.52 8 A SER 26 -18.99 116.15 8 A ARG 27 85.28 -55.03 8 A CYS 30 176.44 -172.36 8 A MET 31 56.94 -134.43 9 A LYS 16 -141.21 -58.24 9 A ARG 23 -68.68 -76.23 9 A ALA 25 -82.33 49.05 9 A ARG 27 -155.78 -51.16 9 A MET 28 -69.55 -76.87 9 A CYS 30 -170.66 -80.46 10 A LYS 16 -170.29 -64.35 10 A ALA 22 76.47 144.69 10 A ARG 23 -157.14 -72.19 10 A SER 26 -76.37 43.75 10 A MET 28 -159.02 -63.24 10 A CYS 30 51.15 -168.03 11 A LYS 16 -136.44 -65.39 11 A ARG 20 64.11 -68.06 11 A ARG 23 -67.58 -71.20 11 A PRO 24 -80.47 -144.71 11 A MET 28 178.83 -61.65 11 A SER 29 73.10 163.19 11 A CYS 30 -146.88 -79.39 12 A ARG 20 61.45 -69.16 12 A ALA 22 55.52 -158.93 12 A ARG 23 -158.99 -69.65 12 A PRO 24 -75.59 -154.03 12 A ALA 25 66.79 -67.96 12 A SER 26 176.16 72.24 12 A ARG 27 -135.20 -82.91 12 A SER 29 -101.44 -159.64 12 A CYS 30 -132.65 -135.36 13 A ALA 2 -90.12 -130.11 13 A LYS 16 -156.35 -71.36 13 A PRO 17 -60.84 -79.42 13 A ALA 18 -75.10 46.95 13 A VAL 19 -135.46 -76.65 13 A ARG 23 -162.62 -71.68 13 A PRO 24 -77.70 -162.32 13 A SER 26 -57.32 99.11 13 A ARG 27 -88.25 -127.27 13 A MET 28 -105.51 -75.68 13 A MET 31 -167.00 -62.96 14 A ALA 2 -78.29 36.59 14 A LYS 16 -136.98 -66.69 14 A ARG 23 -70.13 -78.34 14 A PRO 24 -77.92 -158.96 14 A ALA 25 68.56 -61.37 14 A ARG 27 -154.16 -136.46 14 A MET 28 -130.60 -52.92 14 A SER 29 -156.37 -159.78 14 A CYS 30 -103.61 -61.37 14 A MET 31 -153.75 -53.03 15 A ALA 2 -73.23 24.12 15 A ALA 15 -178.12 -123.36 15 A PRO 17 -80.63 -93.86 15 A ARG 20 42.24 -77.46 15 A ARG 23 -153.20 -78.22 15 A PRO 24 -80.63 -159.39 15 A SER 26 16.04 81.08 15 A ARG 27 -114.04 -138.35 15 A MET 31 -133.02 -63.50 16 A ALA 18 -75.09 33.70 16 A VAL 19 -146.52 -64.17 16 A ARG 20 55.27 -73.47 16 A ARG 23 -113.57 -79.71 16 A PRO 24 -79.46 -143.77 16 A ARG 27 -139.08 -136.73 16 A MET 28 -125.29 -80.58 16 A MET 31 -144.46 42.24 17 A LYS 16 -144.60 -72.78 17 A VAL 19 -121.83 -56.92 17 A ARG 20 58.53 -70.60 17 A ARG 23 -149.00 -72.74 17 A PRO 24 -75.12 -149.88 17 A SER 26 103.80 -144.62 17 A ARG 27 -102.48 -127.43 17 A MET 28 -141.94 -69.45 17 A SER 29 -100.57 -151.80 18 A ALA 2 -73.27 20.38 18 A LYS 16 -132.61 -76.29 18 A VAL 19 -124.01 -128.40 18 A ARG 20 58.63 -78.00 18 A ALA 22 -55.87 92.29 18 A PRO 24 -37.01 -31.49 18 A ALA 25 53.54 -126.05 18 A ARG 27 -175.22 -145.83 18 A MET 28 -160.42 -116.64 18 A CYS 30 -157.06 -140.58 19 A LYS 16 -146.66 -70.95 19 A ARG 20 64.87 -66.00 19 A ALA 22 -68.57 69.21 19 A PRO 24 -77.77 -150.45 19 A MET 28 -93.72 -74.03 19 A CYS 30 167.22 -47.50 20 A ALA 2 -78.84 37.96 20 A LYS 16 -150.69 -67.53 20 A ARG 23 -119.49 -83.36 20 A PRO 24 -82.83 -150.15 20 A ALA 25 -66.49 75.83 20 A ARG 27 -89.90 -127.50 20 A MET 31 -132.92 -63.47 21 A ALA 15 -147.73 51.69 21 A LYS 16 -73.85 -71.63 21 A PRO 17 -72.36 -132.61 21 A VAL 19 -164.13 114.89 21 A ARG 20 57.75 -78.60 21 A ALA 22 -86.58 -156.22 21 A ARG 23 -116.38 -82.71 21 A PRO 24 -74.86 -169.54 21 A ARG 27 -144.38 -127.23 21 A MET 28 -163.02 -81.57 21 A CYS 30 -98.40 -61.19 22 A LYS 16 -123.26 -73.76 22 A VAL 19 -135.66 -48.71 22 A ARG 20 59.68 -74.48 22 A ALA 25 -64.21 79.70 22 A ARG 27 -93.60 -134.15 22 A MET 28 164.97 -59.88 22 A CYS 30 -151.81 -51.62 22 A MET 31 -128.93 -60.93 23 A ALA 4 -36.26 87.92 23 A ALA 15 -76.11 46.38 23 A LYS 16 -138.35 -63.80 23 A ALA 18 -81.96 41.43 23 A VAL 19 -160.95 -44.34 23 A ARG 20 73.24 -55.89 23 A MET 28 -163.61 -48.23 23 A CYS 30 -136.29 -87.28 24 A LYS 16 -144.03 -72.37 24 A VAL 19 -136.08 -51.62 24 A ARG 20 54.46 -72.88 24 A ARG 23 -105.27 -74.83 24 A PRO 24 -75.82 -165.33 24 A SER 26 -67.96 71.45 24 A MET 28 171.80 -71.59 24 A MET 31 -129.03 -68.06 25 A LYS 16 -175.12 -58.34 25 A PRO 17 -39.25 -74.06 25 A ALA 18 -79.81 43.52 25 A VAL 19 -146.88 -50.94 25 A ARG 23 -104.26 -78.61 25 A PRO 24 -76.67 -152.26 25 A SER 29 144.27 150.72 25 A CYS 30 49.15 -84.54 26 A ALA 2 -90.13 -139.03 26 A ALA 15 -103.90 45.32 26 A LYS 16 -29.76 148.29 26 A PRO 17 -73.27 -145.67 26 A ALA 18 -68.08 20.56 26 A ARG 20 -5.93 -63.41 26 A ARG 23 -58.06 -72.10 26 A PRO 24 -79.66 -168.99 26 A MET 28 -121.21 -69.63 26 A SER 29 138.85 164.37 26 A CYS 30 63.67 -72.31 27 A ALA 2 -68.80 8.81 27 A LYS 16 57.93 129.91 27 A PRO 17 -64.52 -88.52 27 A ALA 18 -71.26 33.83 27 A ALA 22 -119.54 68.95 27 A ARG 23 -55.86 -72.24 27 A ALA 25 -159.76 -131.37 27 A ARG 27 -147.18 -133.05 27 A MET 28 -162.89 -78.34 27 A MET 31 -159.48 -51.28 refinement AMBER NMR STRUCTURES OF FERREDOXIN CHLOROPLASTIC TRANSIT PEPTIDE FROM CHLAMYDOMONAS REINHARDTII PROMOTED BY TRIFLUOROETHANOL IN AQUEOUS SOLUTION 1 Y N A MET 3 A MET 3 HELX_P A VAL 13 A VAL 13 1 H1 11 TRANSIT PEPTIDE TRANSIT PEPTIDE FER_CHLRE UNP 1 1 P07839 MAMAMRSTFAARVGAKPAVRGARPASRMSCMAYKVTLKTPSGDKTIECPADTYILDAAEEAGLDLPYSCRAGACSSCAGK VAAGTVDQSDQSFLDDAQMGNGFVLTCVAYPTSDCTIQTHQEEALY 1 32 1FCT 1 32 P07839 A 1 1 32 1 P 1